Hematologic, Immunologic, Infectious Systems. GENERAL LABORATORY TESTS ABO Blood Typing. ◦ The...

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Transcript of Hematologic, Immunologic, Infectious Systems. GENERAL LABORATORY TESTS ABO Blood Typing. ◦ The...

Hematologic, Immunologic, Infectious Systems

GENERAL LABORATORY TESTS ABO Blood Typing.

◦The antigenic properties of blood are typed to avoid potentially lethal transfusion reactions.

◦Blood types include A, B, AB, and O. Blood Smear.

◦The blood smear is produced by smearing a drop of peripheral blood on a slide and examining the smear microscopically.

◦used to obtain a WBC count and differential, to estimate the platelet count, and to evaluate RBC morphology.

Coagulation Tests. Activated Partial Thromboplastin Time.

◦ aPTT assesses the intrinsic clotting pathway (i.e., factors II, V,VIII, IX, X, XI, and XII).

◦ It is commonly used to monitor heparin therapy. Bleeding Time.

◦ The duration of bleeding after a standardized skin incision. ◦ It is used to evaluate platelet quantity and function.

Thrombin Time.◦ Used to evaluate the effect of heparin and thrombolytic drug

therapy and coagulation abnormalities.

Coagulation Tests. Prothrombin Time.

◦ Used to assess the extrinsic and common clotting pathways (i.e., factors II, V, VII, and X and fibrinogen).

◦ Used to monitor warfarin therapy and to assess hepatic synthetic function.

◦ The international normalized ratio (INR)is a more standardized expression of PT that takes into account differences in reagent activity.

◦ It is calculated according to the equation INR = (Pt patient /PT control) ISI

◦ ISI is the International Sensitivity Index.

Complete Blood Count. ◦ The CBC consists of the hemoglobin, hematocrit, RBC

count, WBC count, mean corpuscular volume, mean corpuscular hemoglobin, and mean corpuscular hemoglobin concentration.

Crossmatching. ◦ determines compatibility between donor and recipient blood◦ Agglutination between the donor's RBCs and the recipient'S

serum indicates incompatibility. Fibrinogen.

◦ It is increased in disseminated intravascular coagulation. ◦ Used to evaluate bleeding disorders.

Fibrin Degradation Products. ◦ FDPs are released when fibrin is broken down. ◦ They are assessed in the diagnosis and monitoring of

disseminated intravascular coagulation. Hemoglobin Electrophoresis.

◦ Immunoelectrophoresis uses electrophoretic separation and immunodiffusion to screen for the presence of abnormal proteins such as Bence Jones and myeloma proteins.

Serum Protein Electrophoresis. ◦ SPEP is used to screen for serum protein abnormalities. ◦ The proteins (albumin, (Xl globulin, (xz globulin, beta

globulin, and gamma globulin) are identified by different migration patterns when subjected to an electric field.

LABORATORY TESTS BY SPECIFIC CELL TYPE Platelets.

◦ Initiate hemostasis. ◦ The risk of spontaneous bleeding is greatly increased if the

platelet count is less than 20,000 cells/mm3. ◦ The platelet count is sometimes estimated from the

peripheral blood smear; ◦ it is considered adequate if the smear contains two to three

platelets per field. ◦ The count may be performed manually or electronically and

is a more accurate estimate of the number of platelets.

Platelets. ◦ The platelet count and function are altered in a variety of

diseases. ◦ The count is ↓ if the bone marrow fails to produce platelets

(as in aplastic anemia, leukemia, and some viral infections) and by peripheral platelet destruction (as in idiopathic thrombocytopenic purpura, some collagen vascular diseases, thrombotic thrombocytopenic purpura, disseminated intravascular coagulation, and hemolytic uremic syndrome).

Platelets. ◦ The platelet count may be increased after splenectomy; in

some myeloproliferative diseases, such as myelogenous leukemia and essential thrombocythemia; and in chronic inflammatory diseases, malignancy, and chronic infections.

◦ Platelet function is impaired by drugs such as aspirin, dipyridamole, and nonsteroidal antiinflammatory drugs and by disease states such as uremia, multiple myeloma, and severe liver disease.

LABORATORY TESTS BY SPECIFIC CELL TYPE Red Blood Cells Carboxyhemoglobin

◦ forms in the presence of carbon monoxide (e.g., house fires, automobile exhaust).

◦ Carbon monoxide attaches to hemoglobin, rendering the hemoglobin incapable of carrying oxygen.

Coombs' Test. ◦ is performed by using an antiserum containing antibodies

that act to bridge antibody- or complement-coate RBCs◦ Agglutination occurs when the cells are bridged.

Red Blood Cells Direct Coombs' Test.

◦ uses antibodies directed against human proteins (primarily immunoglobulin G [IgG]and complement [C3]) to detect whether these proteins are attached to the surface of RBCs.

◦ The direct Coombs' test is used to differentiate between immunologic (e.g., autoimmune) and nonimmunologic (e.g., drug-induced) hemolytic anemias.

Indirect Coombs' Test. ◦ The indirect Coombs' test detects antibodies against human

RBCs in the patient's serum. The indirect Coombs' test is used in crossmatching before transfusions.

Red Blood Cells Erythrocyte Sedimentation Rate.

◦ (ESR) is a nonspecific indicator of inflammation. ◦ measures the rate at which RBCs settle out of mixed venous

blood. ◦ The settling rate, influenced by the shape of the RBC and

the charges on the membrane, is used as a nonspecific marker of inflammatory and malignant disease.

Folate. ◦ Decreased serum folate levels are associated with

megaloblastic anemias.

Red Blood Cells Hematocrit.

◦ It is the number of RBCs in 100 ml of blood as a percentage.

◦ ranges vary with age, gender, and elevation above sea level◦ Increased in vitamin B12 and folic acid deficiencies and is

decreased in iron deficiency. ◦ Used to diagnose anemia and assess the patient's response to

replacement therapy.

Red Blood Cells Hemoglobin.

◦ It is the oxygen-carrying RBC protein. ◦ Ranges vary with age, gender, and elevation above sea level.◦ Decreased in blood loss and iron deficiency anemia◦ used to diagnose anemia and to assess the patient's response

to replacement therapy◦ estimate oxygen content.

LABORATORY TESTS BY SPECIFIC CELL TYPE Iron Metabolism Ferritin.

◦ Serum ferritin does not contain iron but is in equilibrium with tissue ferritin, making it a useful indicator of tissue iron stores.

◦ It is used to diagnose iron deficiency anemia. Iron.

◦ Levels are decreased in iron deficiency anemia, chronic infections, and some malignancies.

◦ Levels may be increased in iron poisoning and hemolysis

Iron Metabolism

Total Iron-Binding Capacity. TIBC ◦Evaluates the capacity of transferrin to bind to iron. ◦used to diagnose iron deficiency anemia and to

monitor replacement therapy. Transferrin Saturation.

◦a specific iron transport protein. ◦Evaluates the percentage of total iron-binding

protein saturated with iron. ◦Used to diagnose iron deficiency anemia and to

monitor replacement therapy

Red Blood Cell Appearance. ◦ The size, shape, and color of RBCs are influenced by many

diseases.◦ A variety of terms are used to describe the RBC appearance:

Anisocytosis. ◦ variably sized RBCs, is associated with early iron

replacement therapy. . Burr Cells.

◦ RBCs with evenly distributed spicules on the membrane, are associated with uremia.

Macrocytes.◦ Macrocytes are larger-than-normal RBCs.

Red Blood Cell Appearance. Microcytes.

◦Microcytes are smaller-than-normal RBCs. Normochromia.

◦Normochromia describes normal RBC color. Normocytes.

◦Normocytes are normal-sized RBCs

Red Blood Cell Count. ◦The RBC count is the number of RBCs per 1 ml of

blood.◦It is used to diagnose anemias and to assess the

patient's response to replacement therapy. ◦It also serves as an indicator of chronic hypoxemia.

Red Blood Cell Indices.◦ These indices are used to differentiate the type of

anemia and to assess the patient's response to replacement drug therapy.

Mean Cell Hemoglobin. ◦MCH is the average RBC hemoglobin content. ◦MCH is ↓ in iron deficiency anemias and ↑ in folic

acid and vitamin B12 deficiencies and hemolytic anemias.

Red Blood Cell Indices. Mean Cell Hemoglobin Concentration.

◦MCHC is The amount of hemoglobin per volume of RBCs.

Mean Cell Volume. ◦MCV is the average volume of individual RBCs. ◦MCV is ↓ in iron deficiency anemias, thalassemias,

and other chronic diseases (i.e., microcytic anemias). ◦It is ↑ in folic acid and vitamin B12 deficiencies (i.e.,

macrocytic anemias).

Red Cell Distribution Width◦RDW is a histogram of the distribution of RBC

volumes as measured with automated equipment.◦It is used to diagnose anemias and to assess the

patient's response to replacement therapy.

Reticulocytes. ◦Immature RBCs that contain residual ribonucleic acid

(RNA)and protoporphyrin but no nucleus. ◦Used to assess the response of the bone marrow to

blood loss, hemolysis, and replacement therapy for the treatment of anemia.

◦Healthy marrow produces and releases reticulocytes in response to the need for increased oxygen-carrying capacity.

White Blood Cells. ◦ The WBC count and differential (the relative percentage and

absolute numbers of each type of WBC) are used to diagnose a variety of diseases and to assess the patient's response to drug therapy.

Eosinophils. ◦ WBCs that contain numerous inflammatory mediators.◦ The number of eosinophils is increased in parasitic infections

and allergic reactions.◦ Some neoplastic diseases, skin disorders, and collagen

vascular diseases also may increase the number of circulating eosinophils..

White Blood Cells.

Basophils. ◦form heparin and have a role similar to that of mast

cells in immediate hypersensitivity reactions. ◦They have insignificant phagocytic properties and do

not increase in number as a result of infectious processes.

◦May increase in chronic hypersensitivity states, systemic mast cell disease, and myeloproliferative diseases

White Blood Cells. Neutrophils.

◦ Mature WBCs. ◦ Their precursors, in order of increasing maturity, are

myeloblasts, promyelocytes, myelocytes, metamyeldcytes, and band neutrophils.

◦ A shift to the left in the differential WBC count means significant numbers of neutrophil precursors, such as bands, are present.

◦ They are phagocytic cells that engulf and destroy bacteria. ◦ They are increased in infections, tissue necrosis, inflammatory

diseases, metabolic disorders, and some leukemias.

White Blood Cells.

Neutrophils. ◦The number is increased by corticosteroids, exercise,

and epinephrine, all of which induce the release of neutrophils from peripheral storage sites.

◦ The number is decreased in overwhelming infection and in some bacterial, viral, and protozoal infections.

◦Marrow depressants, liver disease, and some collagen vascular diseases are associated with decreased numbers of neutrophils

White Blood Cells.

Lymphocytes. ◦ Are WBCs formed in lymphoid tissue throughout the body,◦ Provide humoral, cell-mediated, and cytotoxic immune

responses and interact with antigens in the body. ◦ T lymphocytes, derived from the thymus, provide cell-

mediated immunity.◦ B lymphocytes, derived from the bone marrow, provide

humoral immunity and produce antibodies◦ The lymphocyte are increased in viral disease, bacterial

diseases such as whooping cough, metabolic disease, and chronic inflammatory conditions.

White Blood Cells.

Lymphocytes. ◦They are decreased in immunodeficiency syndromes,

severe illnesses, and diseases associated with abnormalities of the lymphatic circulatory system.

◦The two types of T lymphocytes include the T4 (helper) and T8 (suppressor) lymphocytes.

◦T4 lymphocytes enhance the response of B cells. ◦they are profoundly decreased in acquired

immunodeficiency syndrome (AIDS).

White Blood Cells.

Lymphocytes. ◦T8 lymphocytes may be increased in hepatitis B,

acute mononucleosis, and cytomegaloviral infection.◦The T4-to-T8 lymphocyte ratio reverses in diseases

associated with altered immunoregulatory function

White Blood Cells.

Monocytes. ◦macrophage precursors, circulate briefly before

entering body tissues, where they become macrophages.

◦The monocyte count is increased in some infectious, granulomatous, and collagen vascular diseases.

White Blood Cells.

DIAGNOSTIC PROCEDURE Bone Marrow Aspiration.

◦Bone marrow is obtained by penetrating the iliac crest or sternum with a large-bore needle and withdrawing a sample of the bone marrow.

◦The sample is smeared on a slide and evaluated microscopically for cell-line precursors and iron stores.

◦Bone marrow aspiration is used to diagnose anemias and leukemias.

LABORATORY TESTSAutoantibodies. Antineutrophil Cytoplasmic Antibodies.

◦ANCA are autoantibodies against neutrophile granules and monocyte lysosomes .

◦p-ANCA reactivity is associated with angiitis; rheumatoid arthritis, inflammatory bowel disease, and vasculitis, Wegener's granulomatosis.

LABORATORY TESTS

Autoantibodies. Antinuclear antibodies

◦ANAs often are associated with systemic lupus erythematosus (SLE), although they may be present in rheumatoid collagen diseases, mixed connective tissue disease, and systemic sclerosis.

LABORATORY TESTSAutoantibodies. Anti-DNA Antibodies.

◦antibodies against double stranded DNA

(dsDNA) and single-stranded DNA (ssDNA).

Anti-dsDNA antibodies often are found in

patients with SLE.

LABORATORY TESTSAutoantibodies. Extractable Nuclear Antigens.

◦ Antibodies may be present against specific extractable nuclear antigens (ENAs).

◦These antigens include the Smith (Srn), ribonucleoprotein (RNP),SS-A(Ro), SS-B(La), Scl-70, and histone antigens.

◦SLE is associated with high titers of anti-Srn antibodies.

◦Mixed connective tissue disease and SLE are associated with high titers of anti-RNP antibodies.

LABORATORY TESTSAutoantibodies. Rheumatoid Factor (RF).

◦Antibodies against IgG and IgM may be found in patients with rheumatoid arthritis

LABORATORY TESTS

Cold Agglutinins. ◦Antibodies that bind to the surface of RBCs.◦Agglutination occurs when the blood sample is cooled. ◦Cold agglutinins are associated with a variety of

infections and inflammatory disorders . Complement.

◦The total serum hemolytic complement (CH50) test is used to screen the integrity of the complement system by testing in vitro the reaction of the patient's serum with pre-sensitized sheep erythrocytes.

◦CH50 levels decrease with increased autoimmune disease activity.

LABORATORY TESTS Complement Components 3 and 4.

◦C3 and C4 of the complement system are normally found in relatively high quantities in the serum and are used to diagnose and monitor the progress of autoimmune disease activity.

◦C3 and C4 levels decrease with increased disease activity. C-Reactive Protein.

◦Acutely elevated in rheumatoid arthritis, acute bacterial infections, and viral hepatitis.

◦ It also is sometimes used to differentiate between bacterial and viral meningitis

LABORATORY TESTS Erythrocyte Sedimentation Rate.

Immunoelectrophoresis. ◦ it uses electrophoretic separation and immunodiffusion

techniques to separate proteins. ◦ It is used to screen for diseases associated with

immunoglobulin abnormalities

LABORATORY TESTS Immunoglobulin E.

◦Serum immunoglobulin E(IgE)is elevated in patients with allergic disorders.

Lupus Anticoagulant. ◦ a circulating immunoglobulin found in patients with

autoimmune disease. ◦It prolongs in vitro clotting time by inhibiting

phospholipid interactions but is not associated with an increased risk of bleeding in vivo.

LABORATORY TESTS Organ-Specific Autoantibodies.

◦Autoantibodies directed against antigens unique to specific organs may be associated with diseases.

◦For example, antibodies may be detected against the thyroid (thyroiditis), RBC membranes (autoimmune hemolytic anemia), platelet membranes (immune thrombocytopenic purpura), glomerular basement membranes (Goodpasture's disease and glomerulonephritis), intrinsic factor (pernicious anemia), and the acetylcholine receptor (myasthenia gravis).

LABORATORY TESTS Protein Electrophoresis.

◦Serum protein electrophoresis is used to screen for serum protein abnormalities.

◦The proteins (albumin, alpha globulin, alpha2 globulin, beta globulin, and gamma globulin) are separated by different migration patterns they follow when subjected to an electric field.

◦This test is used in the diagnosis of diseases associated with immunoglobulin abnormalities

LABORATORY TESTS Venereal Disease Research Laboratory Test.

◦VDRL test, used to diagnose syphilis, is sometimes falsely positive in connective tissue disease.

DIAGNOSTIC PROCEDURES Anergy Panel.

◦ It is used to test the patient's reactivity to a variety of antigens (purified protein derivative antigen, mumps antigen, Streptococcus antigen, Candida, Trichophyton antigen, histoplasmin).

◦The antigens are injected intradermally, and the skin is evaluated for redness and swelling at the injection site.

◦Response to one or more of the antigens indicates a responsive immune system.Response to a specific antigen indicates that the patient has antibodies to a specific antigen.

DIAGNOSTIC PROCEDURES Scratch or Patch Testing.

◦Scratch testing is used to evaluate patient sensitivity to specific allergens.

◦Each allergen is applied to the skin by scratching the skin.

◦The skin is then evaluated for swelling and redness.

LABORATORY TESTS Acid-Fast Stain.

◦The acid-fast stain is used to screen for the presence of Mycobacterium, Nocardia, and Legionella species in body tissues and fluids.

◦Some oocysts, such as Cryptosporidium can be detected with the acid-fast stain.

LABORATORY TESTS Cerebrospinal Fluid Analysis.

◦The CSF is analyzed for the presence and quantity of RBCs, WBCs, glucose, and protein.

◦If indicated, stains (Gram's stain and acid-fast stain) and potassium hydroxide and India ink preparations are used to evaluate the fluid.

◦Normally, the cerebrospinal fluid is clear, without blood or organisms.

LABORATORY TESTS

Cerebrospinal Fluid Analysis.

◦The CSF is normally about 2/3 the serum blood glucose.

◦Viral meningitis is characterized by a -ve Gram's stain and normal protein and glucose.

◦Fungal and tuberculous meningitis is characterized by a -ve Gram's stain, normal protein, and low glucose.

◦Bacterial meningitis is characterized by cloudy CSF, increased WBCs, elevated protein, and frequently a +ve Gram's stain.

LABORATORY TESTS Cold Agglutinins.

◦About 50% of patients with mycoplasma pneumoniae have cold agglutinin titers.

LABORATORY TESTS C-Reactive Protein.

◦used to differentiate between bacterial and viral meningitis.

Culture and Sensitivity Testing. ◦Cultures of body fluids and tissues identify specific

infecting organisms. ◦In vitro testing is used to determine antibiotic

susceptibilities.

LABORATORY TESTS

Cytotoxicity Toxin Assays. ◦The presence of some infectious microorganisms is

identified by the presence of specific toxins produced by them rather than by identification of the organism itself.

◦For example, Clostridium difficile is detected by the presence of a toxin in the stool.

LABORATORY TESTS

Gram's Stain. ◦The Gram's stain is used to evaluate a body fluid or

specimen for the presence of microorganisms. ◦The organisms are characterized according to their

gram-positive or gram-negative characteristics, morphology (e.g., cocci, rod), and other characteristics (e.g., chain or cluster formation).

LABORATORY TESTS

India Ink Preparation. ◦to detect Cryptococcus neoformans in a variety of

body fluids. ◦The carbons in India ink are unable to penetrate the

organism, enabling the microscopic identification of the organism by its lack of staining.

LABORATORY TESTS

Minimal Bactericidal Concentration. ◦MBC is the lowest antibiotic concentration that

kills at least 99.9% of the bacteria in the original inoculum.

◦ It is used to determine the susceptibility of the organism to antibiotics

LABORATORY TESTS

Minimum Inhibitory Concentration. ◦MIC is the lowest antibiotic concentration that

completely inhibits the visible growth of a microorganism.

◦It is used to determine the susceptibility of the organism to antibiotics.

Potassium Hydroxide Preparation. ◦Potassium hydroxide (KOH) 10% to 20% is used to

detect fungi in body fluids and skin scrapings.

LABORATORY TESTS

Rapid Plasma Reagin Test. ◦ To screen for syphilis. ◦ It tests for AB against Ag from damaged host cells.

Serologic Tests. ◦ Used to identify an Ag or AB to help diagnose infectious

disease and to monitor the immunologic response to the microorganism.

◦ Acute-phase titers and convalescent titers are sometimes compared.

◦ Example include the antistreptolysin-O (ASO) titer, cold agglutinin titers, cryptococcal titers, and hepatitis viral serology.

LABORATORY TESTS

Venereal disease Research Laboratory Test.

Wet Mounts. ◦Wet mounts of body fluid specimens are examined

microscopically for the presence of parasites and fungi.

LABORATORY TESTS White Blood Cell Count and Differential.

◦ Elevated in patients with bacterial and viral infections. ◦ A left shift (increased bands and segmented neutrophils)

indicates a bacterial infection. ◦ The lymphocyte count may be elevated in viral infections◦ The eosinophile count may be elevated in parasitic

infections.◦ Elderly patients and those with impaired immune systems or

very severe infectious diseases may not be able to mount a white cell response to infection.

Respiratory and Renal Systems

Tests to estimate glomerular filtration rate (GFR)  Rate at which ultrafilrate of plasma is formed. This

is a “true” physiological estimate of renal function. This assumes no secretion from the blood into the

tubule and not reabsorbed one it the tubule.  Inulin

◦Inulin is an inert carbohydrate that is not metabolized, secreted, or re-absorbed. It is the

◦ideal agent for determining GFR.◦Use is not practical; used mainly for research

Blood urea nitrogen (BUN)8-20 mg/dl  BUN is the concentration of nitrogen (within urea) in

the serum. Depends on urea production (liver) and tubular re-

absorption., as well as GF  Must be interpreted with other laboratory data and

clinical data. Can be used to assess hydration status, renal function,

protein tolerance, and catabolic possesses

Blood urea nitrogen (BUN)8-20 mg/dlElevated BUN (Azotemia) Prerenal causes:

◦ Decreased renal perfusion (dehydration blood loss, shock, severe CHF)

◦ BUN will follow the sodium and water. ◦ IF the kidneys are increasing sodium and water re-

absorption, BUN re-absorption will also increase. ◦ Increased protein breakdown (GI bleed, high protein

diets, corticosteroids, tetracycline)  

Blood urea nitrogen (BUN)8-20 mg/dlIntrarenal (intrinsic) causes:

◦Acute renal failure: drug induced, severe hypertension, glomerulonephritis, tubular necrosis.

◦Chronic renal failure: diabetes, pyelonephritis, chronic anagesic abuse

Postrenal causes: Obstruction on ureter, bladder neck, urethra

Blood urea nitrogen (BUN)8-20 mg/dlDecreased BUN Maybe truly low in patents who are malnourished or

have profound liver disease (i.e., liver can not synthesize urea)

Fluid overload may initially decrease BUN, but many of the causes of overload (CHF, renal failure) result in an increased BUN due to excessive re-absorption.

Creatinine 0.7 - 1.5 mg/dl (adults); 0.2 - 0.7 mg/dl (children)

Creatinine is a normal metabolic product of both creatine and phosphocreatine which are constituents of skeletal muscle.

Daily production is determined by the individual’s muscle mass.

In normal patients at steady state, the rate of creatinine production equals its excretion. Very little variation from day to day in patients with normal renal function.

CreatinineCauses of true changes in serum creatinine: Serum creatinine is not influenced much by changes

in renal blood flow (urine flow), or diet. A rise in creatinine almost always indicates

worsening renal function i.e., decreased GFR.  Severely decreased muscle mass (cachexia) or

activity may decrease SCr. Vigorous exercise may temporarily increase SCr by

~0.5 mg/dl.

CreatinineCauses of false serum creatinine Depends on the test that laboratory uses. If using the Jaffe assay, large amounts of non-

creatinine chromogens (uric acid, glucose, acetone acetoacetate, pyruvic acid, ascorbic acid) can increase the results of the test.

Concomitant BUN and serum creatinine Normal ratio is 10 to 15:1

 Very useful for evaluating:◦Acute renal failure with suspected dehydration,

both BUN and SCr are elevated but the BUN:SCr ratio is often 20:1 or higher.

◦Gastrointestinal bleed with renal impairment. BUN:SCr ratio is often ≥ 26:1 due to digestion of blood and lowered effective blood volume.

Creatinine clearance (90 - 140 ml/min/1.73m2) Creatinine is primarily excreted via glomerular

filtration, with about 10 to 15% eliminated by active tubular secretion.

CLCr is an estimate of GFR.  Clinical use of creatinine clearance:

◦ Assessing kidney function in patients with acute or chronic renal failure

◦ Monitoring patients on nephrotoxic drugs◦ determining dosage adjustments for renally eliminated drugs

Creatinine clearance (90 - 140 ml/min/1.73m2) Calculating creatinine clearance1.Direct measurement. from the following equation:Clcr = (Uv) (Ucr) X 1.73m2

(ScCr) (1400) BSA Uv is the 24 hour urine volume in ml, Ucr is the

urinary creatinine concentration in mg/dl, SrCr is the serum creatinine concentration in mg.dl at

the midpoint of the urine collection 1440 is the number of minutes per day. The units of ClCr are in ml/min.

Creatinine clearance (90 - 140 ml/min/1.73m2) Estimate of creatinine clearance (Cockcroft and

Gault equation)Clcr = (140 – age) (LBW)

(ScCr)  Multiply by 0.85 for females LBW for males = 50kg per inch > 60 inches LBW for females = 45 kg + 2.3 kg per inch > 60

inches

Creatinine clearance (90 - 140 ml/min/1.73m2) Both direct measurement and estimates for ClCr are

unreliable for patients with changing renal function. Significant renal injury can occur prior to an increase

in the serum creatinine. Time required to reach 95% steady state for serum

creatinine.)◦ CrCl 60ml/min. 1 day◦ CrCl 30ml/min. 2 days◦ CrCl10ml/min. 4 days

Fractional excretion of sodium (FENa) Measure of the excreted fraction of filtered sodium

(measures tubular sodium Re-absorption). Used to differentiate between renal failure from,

prerenal causes (e.g., dehydration) and from parenchymal renal insufficiency

Diuretics also cause a high FENa since they inhibit sodium re-absorption. Invalidates the test

Fractional excretion of sodium (FENa)

In renal disease the kidneys are unable to conserve

sodium, resulting in elevated urine Na levels.

Also used to diagnose the syndrome of inappropriate

antidiuretic hormone secretion

in SIADH the serum Na is low but the urine Na is

elevated

LABORATORY TESTS Electrolytes and Minerals.

◦Serum electrolytes and minerals that are useful when assessing the renal system include calcium, chloride, magnesium, phosphorus, potassium, and sodium.

◦the serum concentration of these electrolytes and minerals is variable and does not reflect total body stores.

LABORATORY TESTS Electrolytes and Minerals. ↑ Na, K, Po4, Mg ↓ Ca

LABORATORY TESTS

Osmolality. ◦The urine and serum osmolalities are measured and

compared to assess the kidneys' ability to concentrate the urine.

◦The normal urine-to-serum osmolality ratio is 1:3. ◦Ratios less than 1:1 indicate distal tubular disease. ◦Ratios greater than 1:1 indicate glomerular disease.

LABORATORY TESTS

Gram's Stain and Culture. ◦Normal urine contains no bacteria or yeasts. ◦Bacteria are present in urinary tract infections and

pyelonephritis. ◦The Gram's stain and culture identify the cause of

the infection and aid in monitoring the patient's response to drug therapy.

◦Yeasts are found in the immunocompromised host and sometimes are associated with broad-spectrum antibiotic therapy.

LABORATORY TESTS

Urine Toxicology. ◦Urinalysis is used to detect the presence of drugs in

patients with suspected drug overdoses, patients experiencing altered mental status, and patients in drug rehabilitation programs.

LABORATORY TESTS

Urinalysis.◦ Urinalysis is used to screen for renal and nonrenal

disease and to monitor the patient's response to drug and nondrug therapy

◦The urinalysis consists of macroscopic assessment, chemical screening by dipstick, and microscopic assessment of the urine sediment.

◦Quantitative analyses are performed when indicated.

LABORATORY TESTS

Dipstick Screening. Bilirubin.

◦not normally present in the urine.

◦ It is excreted in the urine in the presence of severe liver

disease or obstructive biliary disease.

◦The urine appears dark yellow to brown if bilirubin is

present.

LABORATORY TESTS

Dipstick Screening. Blood.

◦not normally present in the urine.

◦The urine may be visibly bloody, or blood may be

found on microscopic or dipstick examination.

◦Urinary tract infections, renal stones, sickle cell disease,

glomerulonephritis, and malignant hypertension, are

associated with blood in the urine.

LABORATORY TESTS

Dipstick Screening. Glucose.

◦Glucose is not normally present in the urine. Urine glucose may be present in diabetes mellitus.

Ketones. ◦Ketones are not normally present in the urine.

Urinary ketones may be present before serum. ketones are detectable in diabetic ketoacidosis and may be found in patients who are dieting or are malnourished.

LABORATORY TESTS

Dipstick Screening. Leukocyte Esterase.

◦Leukocyte esterase is not normally present in the urine. ◦This enzyme is present in WBCs and may be found in

the urine during urinary tract and vaginal infections. Nitrites.

◦ Nitrites are not normally present in the urine. ◦Escherichia coli converts dietary nitrates to nitrites.◦ Urinary nitrites are associated with E. coli urinary tract

infections but may only be found if the urine is retained in the bladder for at least 4 hours.

LABORATORY TESTS

Dipstick Screening. pH.

◦The urinary pH reflects the overall acid-base balance of the body and the kidneys' ability to handle acids and bases.

◦The formation of kidney stones is pH dependent. ◦An alkaline pH (pH >7.0) is commonly associated

with the presence of urea-splitting organisms such as Proteus mirabilis.

LABORATORY TESTS

Dipstick Screening. Protein.

◦Small amounts of protein are normally present in the urine (as much as 0.5 g/day).

◦Urinary protein is increased in a variety of renal diseases

Specific Gravity. ◦The specific gravity reflects the kidneys' ability to

concentrate urine and the overall state of hydration. ◦The greater the concentration of the urine is, the

higher the specific gravity is.

LABORATORY TESTS

Dipstick Screening. Urobilinogen.

◦Urobilinogen is not normally present in the urine. ◦It may be excreted in the urine in the presence of

severe liver disease or obstructive biliary disease.

LABORATORY TESTS Macroscopic Assessment Color

◦Freshly voided urine is normally pale yellow. ◦Normal urine may range in color from nearly

colorless if very dilute to orange if very concentrated.

Turbidity. ◦Freshly voided urine is normally clear. ◦The urine is turbid if bacteria, WBCs, RBCs, yeast,

or crystals are present.

LABORATORY TESTS Microscopic Assessment.

◦ The microscopic evaluation assesses the urinary sediment obtained by centrifugation for a variety of casts, cells, and crystals.

Casts. ◦ Urinary casts, are objects formed and molded within renal

tubules. ◦ composed mostly of protein and cells. ◦ They may be convoluted (spiral) if formed in distal

convoluted tubules, broad if formed in dilated collecting ducts, and narrow if formed in narrow lumens.

LABORATORY TESTS Microscopic Assessment. Casts. Bile casts.

◦acellular casts that contain bile associated with liver disease.

Granular casts.

◦acellular casts that have a granular appearance.

◦associated with renal and viral disease and exercise. Hemoglobin casts.

◦acellular casts that contain hemoglobin.

◦associated with hemolytic anemias.

LABORATORY TESTS Microscopic Assessment. Casts. Hyaline casts.

◦ acellular casts that consist of a protein matrix. ◦ An occasional hyaline cast may normally be present◦ the number of hyaline casts increases with renal disease.

Mixed cellular casts.◦ may contain RBCs, WBCs, and renal tubular epithelial

cells. ◦ associated with mixed tubular and interstitial renal diseases.

Red blood cell casts. ◦ formed if the glomerular basement membrane is damaged. ◦ found in acute and focal glomerulonephritis, lupus nephritis,

and trauma.

LABORATORY TESTS Microscopic Assessment. Casts. Renal tubular epithelial cell casts.

◦ found in diseases such as hepatitis and cytomegaloviral infection associated with tubular epithelial destruction.

Waxy casts. ◦ A cellular casts formed by the breakdown of cellular casts. ◦ associated with chronic renal disease.

White blood cell casts. ◦ associated with interstitial renal inflammation and are found

in pyelonephritis.

LABORATORY TESTS Microscopic Assessment. Cells Red blood cells.

◦Normally, as many as 2 RBCs /hpf may be present in the urine.

◦The number increases with urinary tract infections, stones, and tumors and with strenuous exercise.

Renal tubular epithelial cells. ◦They shed from the renal tubules, are normally

present in the urine.

LABORATORY TESTS Microscopic Assessment. Cells Squamous epithelial cells.

◦are normally present in the urine. ◦They are shed from the urethra and vagina.,

White blood cells. ◦Normally, as many as 5/hpf may be found in the

urine. ◦The number increases with renal and urinay tract

disease and strenuous exercise

LABORATORY TESTS Microscopic Assessment. Crystals.

◦found in acidic and alkalotic urine. ◦Amorphous phosphate crystals and triple phosphate

crystals are normally present in alkaline urine.◦Amorphous urate crystals, calcium oxalate, and uric

acid crystals are normally present in acidic urine. Bilirubin crystals.

◦Bilirubin crystals are reddish brown needles, plates, and cubes associated with jaundice and bilirubinemia.

LABORATORY TESTS Microscopic Assessment. Cholesterol crystals.

◦ Cholesterol crystals are flat plates with notched corners associated with the nephrotic syndromes

Cysteine crystals.◦hexagonal plates associated with congenital

cystinuria

LABORATORY TESTS Microscopic Assessment. Crystals. Leucine crystals.

◦ Round, oily-appearing crystals associated with severe hepatic disease.

Tyrosine crystals. ◦Tyrosine crystals are fine needles grouped in

sheaves that are associated with severe hepatic disease

DIAGNOSTIC PROCEDURES

Intravenous Pyelogram. ◦the IV pyelogram (IVP) is used to visualize the

entire UT.◦ A parenteral contrast medium cleared by

glomerular filtration is used to detect ureteral obstruction, masses, tumors, and cysts.

Retrograde Pyelography. ◦Used to visualize the urine collecting systems

independent of renal function. ◦Contrast media are instilled through a catheter

placed in the bladder

LABORATORY TESTS Arterial Blood Gas.

◦Used to assess the acid-base balance and level of ventilation, to diagnose acid-base disturbances, and to monitor the patient's response to drug and nondrug interventions.

LABORATORY TESTS Carbon Dioxide Tension.

◦The partial pressure of dissolved carbon dioxide (PaCo2) is a quantitative measure of net Co2 production and elimination.

Oxygen Saturation. ◦ the oxygen saturation of the blood (Sao2) is a

quantitative measurement of the percentage of hemoglobin combined with o2.

◦ It can be measured noninvasively with pulse oximetry. Oxygen Tension.

◦The partial pressure of o2 dissolved in the blood (Po2) is a quantitative measure of oxygen concentration.

LABORATORY TESTS Sputum Analysis.

◦Used to screen for disease and to monitor the patient's response to drug and nondrug therapy.

◦It consists of macroscopic and microscopic assessments

Sputum Analysis. Color

◦Yellow sputum is indicative of inflammation.◦Uniformly rusty-appearing purulent sputum is

indicative of Pneumococcal pneumoniae ◦Bright red streaks in viscid sputum is indicative of

Klebsiella pneumoniae◦Greenish black sputum is indicative of gram-

negative bacilli infection.

Sputum Analysis. Odor.

◦Foul-smelling sputum is indicative of a bacterial infection.

Viscosity. ◦Asthmatic patients have a very thick, sticky,

tenacious sputum. Volume.

◦The volume of sputum is increased in a variety of diseases, including bronchitis, pneumonia, and tuberculosis.

Microscopic Assessment Eosinophils.

◦ present in asthma and other hypersensitivity disorders. Neutrophils.

◦ found in bacterial and fungal pneumonia and chronic bronchitis.

DIAGNOSTIC PROCEDURES Bronchoscopy.

◦Used to visualize the tracheobronchial tree. ◦A flexible bronchoscope is introduced into the

tracheobronchial tree through the nose, mouth, or endotracheal or tracheotomy tube.

◦Samples of fluid and tissue may be obtained for Gram's stain, culture, and cytologic examination.

DIAGNOSTIC PROCEDURES Chest Radiography.

◦Chest x-ray films (see Figure 5-3) aid in the diagnosis of pulmonary and cardiac disease and the assessment of the patient's response to drug and nondrug interventions.

DIAGNOSTIC PROCEDURES Pulmonary Function Testing.

◦used to diagnose pulmonary disease, to monitor progression of disease, to predict response to bronchodilators, and to monitor the patient's response to drug and nondrug therapy.

◦performed using a spirometer or body plethysmography.

◦A spirometer detects and records changes in lung volume and flow.

DIAGNOSTIC PROCEDURES Pulmonary Function Testing.

◦Body plethysmography detects changes in intrathoracic pressure and volume.

◦Normal values vary with age, gender, height, and weight.

◦In general, decreases of 20% or more from predicted values are considered significant

DIAGNOSTIC PROCEDURES Pulmonary Function Testing. Carbon Monoxide Diffusing Capacity.

◦ The DLCO test is a noninvasive test of lung function.

◦It is an index of the surface area available for gas

exchange and is ↓ in emphysema, alveolar

inflammation, and pulmonary fibrosis.

4 volumes: ◦inspiratory reserve

volume, ◦tidal volume, ◦expiratory reserve

volume, ◦and residual

volume

2 or more volumes comprise a capacity.

4 capacites: ◦ vital capacity, ◦ inspiratory capacity,◦ functional residual

capacity,◦ total lung capacity

A spirometer can be used to measure the following:◦ FVC and its derivatives (such as FEV1, FEF 25-75%)◦ Forced inspiratory vital capacity (FIVC)◦ Peak expiratory flow rate◦ Maximum voluntary ventilation (MVV)◦ Slow VC◦ IC, IRV, and ERV◦ Pre and post bronchodilator studies

DIAGNOSTIC PROCEDURES Pulmonary Function Testing. Forced Expiratory Volume in 1 Second.·

◦ FEV1 is the volume of air (L) exhaled during forced

exhalation after maximal inspiration.

◦ Normally, at least 80% of the forced vital capacity (FVC) is exhaled in the first second.

◦ The FEV1 is used with the FVC to differentiate between

obstructive (FEV1/FVC <80%) and restrictive (↓ FEV1 and

FVC but normal FEV1/FVC relationship) lung disease.

◦ An FEV1of less than 1 L indicates significant lung disease.

DIAGNOSTIC PROCEDURES Pulmonary Function Testing.

Forced Vital Capacity. FVC

◦Volume of air (L) blown out of the lungs during

forced exhalation after maximal inspiration.

◦Used with the FEV1to differentiate between

obstructive and restrictive lung disease .

DIAGNOSTIC PROCEDURES Pulmonary Function Testing. Peak Expiratory Flow Rate. ( PEFR)

◦Measures the forced expiratory flow in liters per minute.

◦Used to monitor the progression and response to therapy of patients with bronchospastic diseases such as asthma.

◦Asthmatic patients monitor their PEFR at home with inexpensive handheld peak flow meters.

◦PEFR variability of greater than 30% indicates moderate to severe persistent asthma

DIAGNOSTIC PROCEDURES Pulmonary Function Testing.

Residual Volume. (RV)◦the volume of air remaining in the lungs after

forced expiration. ◦It is measured with body plethysmography. ◦RVs are increased in diseases characterized by

small airway obstruction. Tidal Volume. (VT)

◦the volume of air inspired or expired with normal breathing.

Residual Volume (RV): ◦Volume of air

remaining in lungs after maximium exhalation

◦Indirectly measured (FRC-ERV) not by spirometry

Two ways to record results of FVC maneuver:

◦Flow-volume curve---flow meter measures flow rate in L/s upon exhalation; flow plotted as function of volume

◦Classic spirogram---volume as a function of time

(Hyatt, 2003)

Obstructive Disorders◦FVC nl or↓◦FEV1 ↓◦FEF25-75% ↓ ◦FEV1/FVC ↓◦TLC nl or ↑

Restrictive Disorders◦FVC ↓◦FEV1 ↓ ◦FEF 25-75% nl to ↓◦ FEV1/FVC nl to ↑◦ TLC ↓

FEF 25-75% Interpretation of %

predicted:◦>79% Normal◦60-79% Mild

obstruction◦40-59% Moderate

obstruction◦<40% Severe

obstruction

FEV1/FVC Interpretation of absolute

value:◦80 or higher→Normal◦79 or lower →Abnormal

DIAGNOSTIC PROCEDURES

Pulse Oximetry.◦a noninvasive, transcutaneous technique used to

assess oxygen saturation.

DIAGNOSTIC PROCEDURES

Ventilation/Perfusion Scanning. ◦used to compare ventilation and perfusion. ◦Images of the airways taken after the inhalation of

radiolabeled tracers are compared with images of the pulmonary vasculature taken after the injection of contrast agents.

◦Normally, ventilated and perfused areas match. ◦This test is commonly used to identify pulmonary

emboli.